PEMODELAN EVOLUSI SISTEM BINTANG GANDA TIPE ALGOL BERBANTUAN MESA (MODULES FOR EXPERIMENTS IN STELLAR ASTROPHYSICS): Studi Kasus DN Orionis

    Deva Refika Nansyah, - and Judhistira Aria Utama, - and Selly Feranie, - (2025) PEMODELAN EVOLUSI SISTEM BINTANG GANDA TIPE ALGOL BERBANTUAN MESA (MODULES FOR EXPERIMENTS IN STELLAR ASTROPHYSICS): Studi Kasus DN Orionis. S1 thesis, Universitas Pendidikan Indonesia.

    Abstract

    Sistem bintang ganda DN Orionis merupakan bintang ganda semi-terpisah yang mengalami transfer massa melalui mekanisme Roche Lobe Overflow (RLOF). Proses transfer massa berperan dalam evolusi kedua bintang, mempengaruhi parameter fisik seperti massa, radius, suhu efektif, dan dinamika orbit. Penelitian ini bertujuan untuk menganalisis dampak transfer massa terhadap evolusi kedua bintang, dengan fokus pada perubahan parameter mereka setelah transfer massa berakhir tanpa meluas hingga tahap evolusi akhir. Dengan menggunakan MESA (Modules for Experiments in Stellar Astrophysics), untuk membuat model evolusi sistem DN Orionis. Awalnya, bintang primer memiliki massa lebih kecil, yaitu M=1,8 M⊙, dibandingkan bintang sekunder M=3,1 M⊙, dengan periode orbit P=2,5 hari. Transfer massa meningkatkan massa bintang primer menjadi M=2,9M⊙, sementara bintang sekunder kehilangan sebagian besar massanya hingga tersisa M=0,23 M⊙. Radius dan suhu efektif kedua bintang berubah secara signifikan: radius bintang sekunder menyusut dari R=5,67 R⊙ menjadi R=0,0174 R⊙, sedangkan bintang primer mengembang dari R=1,5 R⊙ menjadi R=25,72 R⊙. Bintang primer berevolusi menjadi sub-raksasa merah dengan suhu efektif log Teff=3,688, sementara bintang sekunder menjadi katai putih dengan suhu efektif log Teff=4,2682. Redistribusi momentum sudut menyebabkan periode orbit meningkat menjadi P=20,9 hari. Hasil studi ini menghasilkan bagaimana aliran massa membentuk evolusi dan parameter sistem bintang ganda semi-detached sebelum mencapai tahap evolusi akhirnya, dengan menunjukkan bahwa pembalikan rasio massa yang signifikan dan peningkatan periode orbit merupakan hasil utama dari mekanisme Roche Lobe Overflow pada sistem seperti DN Orionis. The DN Orionis binary star system was a semi-detached binary undergoing mass transfer using Roche Lobe Overflow (RLOF) mechanism. This process played a role in the evolution of both stars, influencing physical parameters such as mass, radius, effective temperature, and orbital dynamics. This study aimed to analyze the impact of mass transfer on the evolution of both stars, focusing on changes in their parameters after the mass transfer ended without extending to their final evolutionary stages. Using MESA (Modules for Experiments in Stellar Astrophysics), the evolution of the DN Orionis system was modeled. Initially, the primary star had a smaller mass M = 1.8 Msun than the secondary M = 3.1 Msun, with an orbital period of P = 2.5 days. Mass transfer increased the primary’s mass to M = 2.9 Msun, while the secondary lost most of its mass, leaving M = 0.23 Msun. The radii and effective temperatures of both stars changed significantly: the secondary’s radius contracted from R = 5.67 Rsun to R = 0.0174 Rsun, while the primary expanded from R = 1.5 Rsun to R = 25.72 Rsun. The primary evolved into a sub-red giant with a effective temperature log Teff = 3.688, while the secondary became a white dwarf with a effective temperature log Teff = 4.2682. Angular momentum redistribution caused the orbital period to increase to P = 20.9 days. This study provided insights into how mass transfer shaped the evolution and parameters of semi-detached binary stars before reaching their final evolutionary stages, demonstrating that significant mass ratio inversion and orbital period expansion are key outcomes of Roche Lobe Overflow in systems like DN Orionis.

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    Official URL: https://repository.upi.edu/
    Item Type: Thesis (S1)
    Additional Information: https://scholar.google.com/citations?hl=en&authuser=2&user=eLd-5OcAAAAJ ID SINTA Dosen Pembimbing : Judhistira Aria Utama: 0031037704 Selly Feranie: 0008117401
    Uncontrolled Keywords: Bintang ganda semi-terpisah, Roche Lobe Overflow (RLOF), Transfer Massa, Evolusi Bintang, DN Orionis. Semi-detached binary, Roche Lobe Overflow (RLOF), Mass Transfer, Stellar Evolution, DN Orionis.
    Subjects: Q Science > Q Science (General)
    Q Science > QB Astronomy
    Q Science > QC Physics
    Divisions: Fakultas Pendidikan Matematika dan Ilmu Pengetahuan Alam > Program Studi Fisika - S1 > Program Studi Fisika (non kependidikan)
    Depositing User: Deva Refika Nansyah
    Date Deposited: 22 Aug 2025 09:08
    Last Modified: 22 Aug 2025 09:08
    URI: http://repository.upi.edu/id/eprint/135886

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